#include <limits.h>
#include "dds/dds.h"
#include "dds/ddsrt/misc.h"
#include "dds/ddsrt/process.h"
#include "dds/ddsrt/threads.h"
#include "test_common.h"
#define MAX_SAMPLES 7
#define INITIAL_SAMPLES 2
static dds_entity_t g_participant = 0;
static dds_entity_t g_topic = 0;
static dds_entity_t g_reader = 0;
static dds_entity_t g_writer = 0;
static dds_entity_t g_waitset = 0;
static dds_time_t g_past = 0;
static dds_time_t g_present = 0;
static void* g_samples[MAX_SAMPLES];
static Space_Type1 g_data[MAX_SAMPLES];
static dds_sample_info_t g_info[MAX_SAMPLES];
static void
disposing_init(void)
{
Space_Type1 sample = { 0, 0, 0 };
dds_qos_t *qos = dds_create_qos ();
dds_attach_t triggered;
dds_return_t ret;
char name[100];
dds_qset_destination_order(qos, DDS_DESTINATIONORDER_BY_SOURCE_TIMESTAMP);
g_participant = dds_create_participant(DDS_DOMAIN_DEFAULT, NULL, NULL);
CU_ASSERT_GT_FATAL (g_participant, 0);
g_waitset = dds_create_waitset(g_participant);
CU_ASSERT_GT_FATAL (g_waitset, 0);
g_topic = dds_create_topic(g_participant, &Space_Type1_desc, create_unique_topic_name("ddsc_disposing_test", name, sizeof name), qos, NULL);
CU_ASSERT_GT_FATAL (g_topic, 0);
dds_qset_reliability(qos, DDS_RELIABILITY_RELIABLE, DDS_MSECS(100));
dds_qset_resource_limits(qos, DDS_LENGTH_UNLIMITED, 3, 1);
g_reader = dds_create_reader(g_participant, g_topic, qos, NULL);
CU_ASSERT_GT_FATAL (g_reader, 0);
dds_qset_writer_data_lifecycle(qos, false);
g_writer = dds_create_writer(g_participant, g_topic, qos, NULL);
CU_ASSERT_GT_FATAL (g_writer, 0 );
ret = dds_set_status_mask(g_writer, DDS_PUBLICATION_MATCHED_STATUS);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_attach(g_waitset, g_writer, g_writer);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_wait(g_waitset, &triggered, 1, DDS_SECS(1));
CU_ASSERT_EQ_FATAL (ret, 1);
CU_ASSERT_EQ_FATAL (g_writer, (dds_entity_t)(intptr_t)triggered);
ret = dds_waitset_detach(g_waitset, g_writer);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_set_status_mask(g_reader, DDS_SUBSCRIPTION_MATCHED_STATUS);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_attach(g_waitset, g_reader, g_reader);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_wait(g_waitset, &triggered, 1, DDS_SECS(1));
CU_ASSERT_EQ_FATAL (ret, 1);
CU_ASSERT_EQ_FATAL (g_reader, (dds_entity_t)(intptr_t)triggered);
ret = dds_waitset_detach(g_waitset, g_reader);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
for (int i = 0; i < INITIAL_SAMPLES; i++) {
sample.long_1 = i;
sample.long_2 = i*2;
sample.long_3 = i*3;
ret = dds_write(g_writer, &sample);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
}
memset (g_data, 0, sizeof (g_data));
for (int i = 0; i < MAX_SAMPLES; i++) {
g_samples[i] = &g_data[i];
}
g_present = dds_time();
g_past = g_present - DDS_SECS(1);
dds_delete_qos(qos);
}
static void
disposing_fini(void)
{
dds_delete(g_reader);
dds_delete(g_writer);
dds_delete(g_waitset);
dds_delete(g_topic);
dds_delete(g_participant);
}
#if 0#else
CU_Test(ddsc_writedispose, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose(g_writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_writedispose, null, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose(g_writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_writedispose, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_writedispose, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose(writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_writedispose, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_writedispose, non_writers, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 data = { 0, 22, 22 };
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose(*writer, &data);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_writedispose, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_return_t ret;
ret = dds_writedispose(g_writer, &oldInstance);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, 22);
CU_ASSERT_EQ_FATAL (sample->long_3, 22);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_writedispose, disposing_new_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance = { INITIAL_SAMPLES, 42, 42 };
dds_return_t ret;
ret = dds_writedispose(g_writer, &newInstance);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 3 );
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 < INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else if (sample->long_1 == INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, 42);
CU_ASSERT_EQ_FATAL (sample->long_3, 42);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_writedispose, timeout, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance1 = { INITIAL_SAMPLES , 22, 22 };
Space_Type1 newInstance2 = { INITIAL_SAMPLES+1, 42, 42 };
dds_return_t ret;
ret = dds_writedispose(g_writer, &newInstance1);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_writedispose(g_writer, &newInstance2);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_TIMEOUT);
}
CU_Test(ddsc_writedispose_ts, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose_ts(g_writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_writedispose_ts, null, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose_ts(g_writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_writedispose_ts, timeout, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance1 = { INITIAL_SAMPLES , 22, 22 };
Space_Type1 newInstance2 = { INITIAL_SAMPLES+1, 42, 42 };
dds_return_t ret;
ret = dds_writedispose_ts(g_writer, &newInstance1, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_writedispose_ts(g_writer, &newInstance2, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_TIMEOUT);
}
CU_TheoryDataPoints(ddsc_writedispose_ts, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_writedispose_ts, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose_ts(writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_writedispose_ts, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_writedispose_ts, non_writers, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 data = { 0, 22, 22 };
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_writedispose_ts(*writer, &data, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_writedispose_ts, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_return_t ret;
ret = dds_writedispose_ts(g_writer, &oldInstance, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, 22);
CU_ASSERT_EQ_FATAL (sample->long_3, 22);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_writedispose_ts, disposing_new_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance = { INITIAL_SAMPLES, 42, 42 };
dds_return_t ret;
ret = dds_writedispose_ts(g_writer, &newInstance, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 3);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 < INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else if (sample->long_1 == INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, 42);
CU_ASSERT_EQ_FATAL (sample->long_3, 42);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_writedispose_ts, disposing_past_sample, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 0, 0 };
dds_return_t ret;
ret = dds_set_status_mask(g_reader, DDS_SAMPLE_LOST_STATUS);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_attach(g_waitset, g_reader, g_reader);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_writedispose_ts(g_writer, &oldInstance, g_past);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_wait(g_waitset, NULL, 0, DDS_SECS(1));
CU_ASSERT_EQ_FATAL (ret, 1);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 < INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose(g_writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_dispose, null, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose(g_writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_dispose, timeout, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance1 = { INITIAL_SAMPLES , 22, 22 };
Space_Type1 newInstance2 = { INITIAL_SAMPLES+1, 42, 42 };
dds_return_t ret;
ret = dds_dispose(g_writer, &newInstance1);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_dispose(g_writer, &newInstance2);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_TIMEOUT);
}
CU_TheoryDataPoints(ddsc_dispose, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_dispose, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose(writer, NULL);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_dispose, non_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose(*writer, (void *) 1);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_dispose, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_return_t ret;
ret = dds_dispose(g_writer, &oldInstance);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, 0);
CU_ASSERT_EQ_FATAL (sample->long_3, 0);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose, disposing_new_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance = { INITIAL_SAMPLES, 42, 42 };
dds_return_t ret;
ret = dds_dispose(g_writer, &newInstance);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 3);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 < INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else if (sample->long_1 == INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, false);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ts, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose_ts(g_writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_dispose_ts, null, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose_ts(g_writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_Test(ddsc_dispose_ts, timeout, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance1 = { INITIAL_SAMPLES , 22, 22 };
Space_Type1 newInstance2 = { INITIAL_SAMPLES+1, 42, 42 };
dds_return_t ret;
ret = dds_dispose_ts(g_writer, &newInstance1, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_dispose_ts(g_writer, &newInstance2, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_TIMEOUT);
}
CU_TheoryDataPoints(ddsc_dispose_ts, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_dispose_ts, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose_ts(writer, NULL, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose_ts, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_dispose_ts, non_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
DDSRT_WARNING_MSVC_OFF(6387);
ret = dds_dispose_ts(*writer, (void *) 1, g_present);
DDSRT_WARNING_MSVC_ON(6387);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_dispose_ts, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_return_t ret;
ret = dds_dispose_ts(g_writer, &oldInstance, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ts, disposing_new_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 newInstance = { INITIAL_SAMPLES, 42, 42 };
dds_return_t ret;
ret = dds_dispose_ts(g_writer, &newInstance, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 3);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 < INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else if (sample->long_1 == INITIAL_SAMPLES) {
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, false);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ts, disposing_past_sample, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 0, 0 };
dds_return_t ret;
ret = dds_set_status_mask(g_reader, DDS_SAMPLE_LOST_STATUS);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_attach(g_waitset, g_reader, g_reader);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_dispose_ts(g_writer, &oldInstance, g_past);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_wait(g_waitset, NULL, 0, DDS_SECS(1));
CU_ASSERT_EQ_FATAL (ret, 1);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if ((sample->long_1 == 0) || (sample->long_1 == 1)) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ih, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
ret = dds_dispose_ih(g_writer, DDS_HANDLE_NIL);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose_ih, invalid_handles) = {
CU_DataPoints(dds_instance_handle_t, DDS_HANDLE_NIL, 0, 1, 100, UINT64_MAX),
};
CU_Theory((dds_instance_handle_t handle), ddsc_dispose_ih, invalid_handles, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih(g_writer, handle);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_PRECONDITION_NOT_MET);
}
CU_TheoryDataPoints(ddsc_dispose_ih, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_dispose_ih, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih(writer, DDS_HANDLE_NIL);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose_ih, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_dispose_ih, non_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih(*writer, DDS_HANDLE_NIL);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_dispose_ih, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_instance_handle_t hdl = dds_lookup_instance(g_writer, &oldInstance);
dds_return_t ret;
ret = dds_dispose_ih(g_writer, hdl);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, 0);
CU_ASSERT_EQ_FATAL (sample->long_3, 0);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ih_ts, deleted, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
dds_delete(g_writer);
ret = dds_dispose_ih_ts(g_writer, DDS_HANDLE_NIL, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose_ih_ts, invalid_handles) = {
CU_DataPoints(dds_instance_handle_t, DDS_HANDLE_NIL, 0, 1, 100, UINT64_MAX),
};
CU_Theory((dds_instance_handle_t handle), ddsc_dispose_ih_ts, invalid_handles, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih_ts(g_writer, handle, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_PRECONDITION_NOT_MET);
}
CU_TheoryDataPoints(ddsc_dispose_ih_ts, invalid_writers) = {
CU_DataPoints(dds_entity_t, -2, -1, 0, INT_MAX, INT_MIN),
};
CU_Theory((dds_entity_t writer), ddsc_dispose_ih_ts, invalid_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih_ts(writer, DDS_HANDLE_NIL, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_BAD_PARAMETER);
}
CU_TheoryDataPoints(ddsc_dispose_ih_ts, non_writers) = {
CU_DataPoints(dds_entity_t*, &g_waitset, &g_reader, &g_topic, &g_participant),
};
CU_Theory((dds_entity_t *writer), ddsc_dispose_ih_ts, non_writers, .init=disposing_init, .fini=disposing_fini)
{
dds_return_t ret;
ret = dds_dispose_ih_ts(*writer, DDS_HANDLE_NIL, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_ILLEGAL_OPERATION);
}
CU_Test(ddsc_dispose_ih_ts, disposing_old_instance, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 22, 22 };
dds_instance_handle_t hdl = dds_lookup_instance(g_writer, &oldInstance);
dds_return_t ret;
ret = dds_dispose_ih_ts(g_writer, hdl, g_present);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if (sample->long_1 == 0) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_NOT_ALIVE_DISPOSED_INSTANCE_STATE);
} else if (sample->long_1 == 1) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
CU_Test(ddsc_dispose_ih_ts, disposing_past_sample, .init=disposing_init, .fini=disposing_fini)
{
Space_Type1 oldInstance = { 0, 0, 0 };
dds_instance_handle_t hdl = dds_lookup_instance(g_writer, &oldInstance);
dds_return_t ret;
ret = dds_set_status_mask(g_reader, DDS_SAMPLE_LOST_STATUS);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_attach(g_waitset, g_reader, g_reader);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_dispose_ih_ts(g_writer, hdl, g_past);
CU_ASSERT_EQ_FATAL (ret, DDS_RETCODE_OK);
ret = dds_waitset_wait(g_waitset, NULL, 0, DDS_SECS(1));
CU_ASSERT_EQ_FATAL (ret, 1);
ret = dds_read(g_reader, g_samples, g_info, MAX_SAMPLES, MAX_SAMPLES);
CU_ASSERT_EQ_FATAL (ret, 2);
for(int i = 0; i < ret; i++) {
Space_Type1 *sample = (Space_Type1*)g_samples[i];
if ((sample->long_1 == 0) || (sample->long_1 == 1)) {
CU_ASSERT_EQ_FATAL (sample->long_2, sample->long_1 * 2);
CU_ASSERT_EQ_FATAL (sample->long_3, sample->long_1 * 3);
CU_ASSERT_EQ_FATAL (g_info[i].valid_data, true);
CU_ASSERT_EQ_FATAL (g_info[i].sample_state, DDS_NOT_READ_SAMPLE_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].view_state, DDS_NEW_VIEW_STATE);
CU_ASSERT_EQ_FATAL (g_info[i].instance_state, DDS_ALIVE_INSTANCE_STATE);
} else {
CU_FAIL_FATAL("Unknown sample read");
}
}
}
#endif